【代表性論文】
1. Z. Y. Zhou, X. K. Cheng, M. L. Hu, R. Y. Chu, H. Bai, L. Han, J. W. Liu, F. Pan, C. Song, Manipulation of the altermagnetic order in CrSb via crystal symmetry. Nature, 638, 645-650, 2025.
2. X. Z. Chen, S. Y. Shi, G. Y. Shi, X. L. Fan, C. Song, X. F. Zhou, H. Bai, L. Y. Liao,Y. J. Zhou, H. W. Zhang, A. Li, Y. H. Chen, X. D. Han, S. Jiang, Z. W. Zhu, H. Q. Wu, X. R. Wang, D. S. Xue, H. Yang, F. Pan, Observation of the antiferromagnetic spin Hall effect, Nature Materials, 20, 800-804(2021).
3. X. Z. Chen, X. F. Zhou, R. Cheng, C. Song, J. Zhang, Y. C. Wu, Y. Ba, H. B. Li, Y. M. Sun, Y. F. You, Y. G. Zhao and F. Pan*, Electric field control of Néel spin–orbit torque in an antiferromagnet. Nature Materials, 8, 931−935 (2019).
4. X. Z. Chen, H. Bai, Y. C. Ji, Y. J. Zhou, L. Y. Liao, Y. F. You, W. X. Zhu, Q. Wang, L. Han, X. Y. Liu, A. Li, X. D. Han, J. Yin, X. F. Kou, F. Pan, C. Song, Mutual control of spin current and antiferromagnetic moments via topological surface state, Nature Electronics, , 574-578(2022).
5. H. Lin , L. Y. Liao, H. S. Qiu, X. Z. Chen, H. Bai, L. Han, Y. J. Zhou, Y. C. Su, Z. Y. Zhou, F. Pan, B. B. Jin, C. Song,Antiferromagnetic magnonic charge current generation via ultrafast optical excitation, Nature Communications,15, 4270(2024).
6. L. Huang, Y. Z. Cao, H. S. Qiu, H. Bai, L. Y. Liao, C. Chen, L. Han, F. Pan, B. B. Jin, C. Song, Terahertz oscillation driven by optical spin-orbit torque, Nature Communications,15, 7227(2024).
7. R. Y. Chen, C. Chen, L. Han, P. S. Liu, R. X. Su, W. X. Zhu, Y. J. Zhou, F. Pan, C. Song, Ordered creation and motion of skyrmions with surface acoustic wave, Nature Communications, 14, 4427(2023).
8. W. X. Zhu, C. Song, L. Han, T. W. Guo, H. Bai, F. Pan, Van der Waals lattice-induced colossal magnetoresistance in van der Waals Cr2Ge2Te6,Nature Communications, 13, 6428(2022).
9. Y. J. Zhou, L. Y. Liao, T. W. Guo, H. Bai, M. K. Zhao, C. H. Wan, L. Huang, L. Han, L. L. Qiao, Y. F. You, C. Chen, R. Y. Chen, Z. Y. Zhou, X. F. Han, F. Pan, C. Song, Orthogonal interlayer coupling in an all-antiferromagnetic junction, Nature Communications, 13, 3723(2022)
10. Y. F. You, H. Bai, X. Y. Feng, X. L. Fan, L. Han, X. F. Zhou, Y. J. Zhou, R. Q. Zhang, T. J. Chen, F. Pan, C. Song, Cluster magnetic octupole induced out-of-plane spin polarization in antiperovskite antiferromagnet, Nature Communications, 12(1), 6524(2021).
11. L. L. Qiao, C. Song, Y. M. Sun, M. U. Fayaz, T. Q. Lu, S. Q. Yin, C. Chen, H. P. Xu, T. L. Ren, F. Pan, Observation of negative capacitance in antiferroelectric PbZrO3 Films, Nature Communications, 12(1), 4215(2021).
12. R. Y. Chen, Q. R. Cui, L. Y. Liao, Y. M. Zhu, R. Q. Zhang, H. Bai, Y. J. Zhou, G. Z. Xing, F. Pan, H. X. Yang, C. Song, Reducing Dzyaloshinskii-Moriya interaction and field-free spin-orbit torque switching in synthetic antiferromagnets, Nature Communications, 12(1), 3113(2021).
13. X. Z. Chen, J. F. Feng, Z. C. Wang, J. Zhang, X, Y, Zhong, C. Song, L. Jin, B. Zhang, F. Li, M. Jiang, Y. Z. Tan, X. J. Zhou, G. Y. Shi, X. F. Zhou, X. D. Han, S. C. Mao, Y. H. Chen, X. F. Han and F. Pan, Tunneling anisotropic magnetoresistance driven by magnetic phase transition, Nature Communications, 8,449(2017).
14. Y. J. Zhou, T. W. Guo, L. Han, L. Y. Liao, W. Q. He, C. H. Wan, C. Chen, Q. Wang, L. L. Qiao, H. Bai, W. X. Zhu, Y. C. Zhang, R. Y. Chen, X. F. Han, F. Pan, C. Song, Spin torque driven antiferromagnetic resonance, Science Advances, 10, 7935(2024).
15. L. Han, X. Z. Fu, R. Peng, X. K. Cheng, J. K. Dai, L. Y. Liu, Y. D. Li, Y. C. Zhang, W. X. Zhu, H. Bai, Y. J. Zhou, S. X. Liang, C. Chen, Q. Wang, X. Z. Chen, L. Y. Yang, Y. Zhang, C. Song, J. W. Liu, F. Pan, Electrical 180o switching of Néel vector in spin-splitting antiferromagnet, Science Advances, 10, 0479(2024).
16. L. Han, Y. Y. Wang, W. X. Zhu, R. N. Zhao, X. Z. Chen, R. X. Su, Y. J. Zhou, H. Bai, Q. Wang, Y. F. You, C. Chen, S. Yan, T. J. Chen, Y. Z. Wen, C. Song, F. Pan, Spin homojunction with high interfacial transparency for efficient spin-charge conversion, Science Advances, 8(38), 2742(2022).
17. F. Pan, S. Gao, C. Song, C. Chen, F. Zeng, Recent progress of resistive random access memories: materials, switching mechanisms, and performance, Materials Sciences and Engineering R: Reports, 83, 1-59(2014). (ISI 熱點論文[2015-2017]和高被引論文)
18. F. Pan, C. Song, X. J. Liu, Y. C. Yang, F. Zeng,Ferromagnetism and possible application in spintronics of transition-metal-doped ZnO films,Materials Science and Engineering R: Reprots,62(1), 1-35(2008).(ISI 熱點論文[2009-2010]和高被引論文,“2008年中國百篇最具影響國際學術論文”)
19. C. Song, R. Q. Zhang, L. Y. Liao, Y. J. Zhou, X. F. Zhou, R. Y. Chen, Y. F. You, X. Z. Chen, F. Pan, Spin-orbit torques: Materials, mechanisms, performances, and potential applications, Progress in Materials Science, 118, 100761(2021).
20. C. Song, B. Cui, B, F. Li, X. J. Zhou, and F. Pan, Recent progress in voltage control of magnetism: Materials, mechanisms, and performance, Progress in Materials Science, 87, 33-82(2017).
21. H. Bai, Y. C. Zhang, L. Han, Y. J. Zhou, F. Pan, C. Song,Antiferromagnet: an efficient and controllable spin source, Applied Physics Reviews, 9, 041316(2022).
22. G. Chen, C. Song, C. Chen,S. Gao,F. Zeng and F. Pan, Resistive Switching and magnetic Moudulation in Cobalt-doped ZnO, Advanced Materials, 24,3515-3520 (2012). (入選Advanced Materials Top 40 for June 13, 2012) (ISI高被引論文)
23. Y. Y. Wang , X. J. Zhou, C. Song, Y. N. Yan, S. M. Zhou, G. Y. Wang, C. Chen, F. Zeng and F. Pan, Electrical control of the exchange spring in antiferromnetic metals, Advanced Materials, 27, 3196-3201 (2015).
24. B Cui, C Song, H. J. Mao, J. J. Peng, F. Li, H. Q. Wu, G. Y. Wang, F. Zeng and F. Pan, Magnetoelectric coupling induced by interfacial orbital reconstruction, Advanced Materials, 27, 6651-6657(2015).
25. F. Li, C. Song, Y. D. Gu, B. Cui, J. J. Peng, G. Y. Wang, F. Pan, Photon-gated spin transistor, Advanced Materials, 29, 1604052(2017).
26. J. C. Sun, Y. Y. Wang,. S. Q. Suo, B. S. Wan, L. Q. Dong, Y. D. Gu, C. Song, C. F. Pan, Q. H. Zhan, L. Gu, F. Pan, J. Y. Zhang, Lateral 2D WSe2 p-n homojunction formed by effcient charge carrier-type modulation for high-performance optoelectronics, Advanced Materials, 32, 1906499(2020).
27. L. Huang, Y. J. Zhou, H. S. Qiu, H. Bai, C. Chen, W. C. Yu, L. Y. Liao, T. W. Guo, F. Pan, B. B. Jin, C. Song, Antiferromagnetic inverse spin Hall effect, Advanced Materials, 34, 2205988(2022).
28. C. Chen, L. Han, P. S. Liu, Y. C. Zhang, S. X. Liang,Y. J. Zhou, W. X. Zhu, S. L. Fu, F. Pan, C. Song, Direct-current electrical detection of surface-acoustic-wave-driven ferromagnetic resonance, Advanced Materials, 35, 2302454(2023).
29. W. X. Zhu, J. C. Sun, Y. Y. Wang, Y. K. Li, H. Bai, Q. Wang, L. Han, Q. T. Zhang, H. Q. Wu, C. Song, F. Pan, Room-Temperature Magneto-Photoresponse in All-2D Optoelectronic Devices for in-Sensor Vision Systems, Advanced Materials, 36(47), 202403624(2024).
30. L. Huang, D. Tian, L. Y. Liao, H. S. Qiu, H. Bai, Q. Wang, F. Pan, C. H. Zhang, B. B. Jin,C. Song, Orbital current pumping from ultrafast light-driven antiferromagnetic insulator, Advanced Materials, 2402063(2024).
31. Y. C. Yang, F. Pan, Q. Liu, M. Liu, and F. Zeng, Fully room-temperature-fabricated nonvolatile resistive memory for ultrafast and high-density memory application, Nano Letters, 9, 1636-1642 (2009).(Highlight by NGP Asia Materials, Non-volatile memory: Silver switches, Published online 15 June 2009)(ISI 熱點論文[2010-2011]和高被引論文)
32. R. Y. Chen, Y. Gao, X. C. Zhang, R. Q. Zhang, S. Q. Yin, X. Z. Chen, X. F. Zhou, Y. J. Zhou, J. Xia, Y. Zhou, S. G. Wang, F. Pan, Y. Zhang, C. Song, Realization of Isolated and High-Density Skyrmions at Room Temperature in Uncompensated Synthetic Antiferromagnets. Nano letters, 20(5), 3299-3305, (2020).
33. Y. J. Zhou, T. W. Guo, L. L. Qiao, Q. Wang, M. Zhu, J. Zhang, Q. Liu, M. K. Zhao, C. H. Wan, W. Q. He, H. Bai, L. Han, L. Huang, R. Y. Chen, Y. G. Zhao, X. F. Han, F. Pan, C.Song, Piezoelectric strain controlled magnon spin current transport in antiferromagnet, Nano Letters, 22 (12), 4646-4653(2022).
34. S. X. Liang, R. Y. Chen, Q. R. Cui, Y. J. Zhou, F. Pan, H. X. Yang, C. Song, Ruderman–Kittel–Kasuya–Yosida-type interlayer Dzyaloshinskii-Moriya interaction in synthetic magnets, Nano Letters, 23(18), 8690–8696(2023).
35. L. Han, X. M. Luo, Y. Q. Xu, H. Bai, W. X. Zhu, Y. X. Zhu, G. Q. Yu, C. Song, F. Pan, Electrical-controllable antiferromagnet-based tunnel junction for logic-in-memory, Nano Letters, 24(14), 4165-4171(2024).
36. Q. Wan, F. Zeng, Z. A. Lu, J. W. Yu, T. J. Chen, F. Pan, Adaptive Signal Modulation Evolved by the Inherent Nonlinearity of Phase-Change Quantum-Dot String, Nano Letters, 24(26), 8089–8097(2024).
37. W. X. Zhu, C. Song, Q. Wang, H. Bai, S. Q. Yin, F. Pan, Anomalous displacement reaction for synthesizing above room-temperature and air-stable vdW ferromagnet PtTe2Ge1/3, National Science Review, 10(1), 173(2023).
38. R. Y. Chen, F. Xu, Q. R. Cui, J. H. Liang, Y. J. Zhou, N. Wang, F. Pan, F. Xue, H. X. Yang, C. Song, Anisotropic interlayer Dzyaloshinskii-Moriya interactions in synthetic ferromagnetic multilayers, Science Bulletin, 68(9), 878-882(2023).
39. J. W. Yu, F. Zeng, Q. Wan, Z. A. Lu, F. Pan,Emulation of Auditory Senses Depending on Chaotic Dynamics of Threshold Switching Memristor, InfoMat, 5, 12458(2023).
40. Y. Y. Wang, C. Song, B. Cui, G. Y. Wang, F. Zeng, and F. Pan, Room-temperature perpendicular exchange coupling and tunneling anisotropic magnetoresistance in antiferromagnet-based tunnel junction, Physical Review Letters, 109,137201(2012).
41. X. Z. Chen, R. Zarzuela, J. Zhang, C. Song, X. F. Zhou, G. Y. Shi, F. Li, H. A. Zhou, W. J. Jiang, F. Pan, and Y. Tserkovnyak, Antidamping-Torque-Induced Switching in Biaxial Antiferromagnetic Insulators. Physical Review Letters, 120, 207204 (2018)
42. H. Bai, L. Han, X. Y. Feng, Y. J. Zhou, Q. Wang, W. X. Zhu, X. Z. Chen, F. Pan, X. L. Fan, C. Song, Observation of spin splitting torque in a collinear antiferromagnet RuO2, Physical Review Letters, 128, 197202(2022).
43. H. Bai, Y. C. Zhang, Y. J. Zhou, P. Chen, C. H. Wan, L. Han, W. X. Zhu, S. X. Liang, Y. C. Su, X. F. Han, F. Pan, C. Song, Efficient spin-to-charge conversion via altermagnetic spin splitting effect in antiferromagnet RuO2, Physical Review Letters, 130, 216701(2023).
44. C. Chen, P. S. Liu, S. X. Liang, Y. C. Zhang, W. X. Zhu, L. Han, Q. Wang, S. L. Fu, F. Pan, C. Song, Electrical detection of acoustic antiferromagnetic resonance in compensated synthetic antiferromagnets, Physical Review Letters, 133, 056702(2024).
45. C. Chen, S. Gao, G. S. Tang, C. Song, F. Zeng, F. Pan, Cu Embedded AlN Based Nonpolar Nonvolatile Resistive Switching Memory, IEEE Electron Device Letters, 33(12),1711-1713(2012).
46. S. L. Fu, W. B. Wang, L. R. Qian, Q. Li, Z. T. Lu, J. Y. Shen, C. Song, F. Zeng , and F. Pan, High-Frequency Surface Acoustic Wave Devices Based on ZnO/SiC Layered Structure. IEEE Electron Device Letters, 40, 103-106(2019).
47. R. X. Su, J. Y. Shen, Z. T. Lu, H. P. Xu, Q. S. Niu, Z. B. Xu, F. Zeng, C. Song, W. B. Wang, S. L. Fu, F. Pan, Wideband and Low-Loss Surface Acoustic Wave Filter Based on 15 degrees YX-LiNbO3/SiO2/Si Structure, IEEE Electron Device Letters, 42(3), 438-411(2021).
48. J. Y. Shen, S. L. Fu, R. X. Su, Z. T. Lu, H. P. Xu, P. S. Liu, R. Wang, T. J. Chen, X. S. He, F. Zeng, C. Song, W. B. Wang, F. Pan, A Low-Loss Wideband SAW Filter with Low Drift Using Multilayered Structure, IEEE Electron Device Letters, 43(8), 1371-1374(2022).
49. P. S. Liu, X. C. Zhou, S. L. Fu, R. X. Su, H. P. Xu, B. Y. Xiao, S. Zhang, Z. T. Lu, R. Wang, C. Song, F. Zeng, W. B. Wang, F. Pan,A Spurious-Free SAW Resonator with Near-Zero TCF Using LiNbO3/SiO2/quartz,IEEE Electron Device Letters, 44(10), 1796-1799(2023).
50. H. P. Xu, S. L. Fu, R. X. Su, P. S. Liu, B. Y. Xiao, X. C. Zhou, Q. F. Xu, S. Zhang, R. Wang, C. Song, F. Zeng, W. B. Wang, F. Pan, Low-Loss N79 Band SAW Filter with 16.0% FBW Based on 15°Y-X LiNbO3/SiC Structure, IEEE Electron Device Letters, 45(7), 1353-1356(2024).
【專著】
Books/Chapters:
1. 潘峰,陳超,《阻變存儲器材料與器件》,科學出版社,北京,2014. (Pan Feng, Chen Chao.《Resistive Random Access Memory Materials and Devices》(in Chinese), Science Press, Beijing, 2014.)
2. 潘峰等,《聲表面波材料與器件》,科學出版社,北京,2012. (Pan Feng et al, 《Materials and Devices of Surface Acoustic Wave》(in Chinese), Science Press, Beijing, 2012)
【教材】
1. 潘峰,王英華,陳超,《X射線衍射技術》,化學工業出版社,北京,2016.10.
【研究組主要成員】:
教授:宋成
副研究員:曾飛
工程師:王瑞、張東輝
博士生:韓磊、萬欽、劉培森、鄭德旭、吳尚、馬銘遠、肖博遠、徐秋峰、張升學、周鑫辰、董雲甯、孫正、馬浩欽
【講授課程】:
1.《X-光衍射分析》(本科生專業基礎課、清華大學精品課)
2.《材料分析與表征》(本科生課)
3.《新型功能材料專題》(研究生課)
【已畢業博士生和碩士生】:
博士生及其現工作單位:
1.曾飛,清華大學
2.趙斌,上海理工大學
3.楊國華,寶山鋼鐵集團
4.耿魁偉,華南理工大學
5.谷宇,太原鋼鐵集團
6.李冬梅,中科院微電子研究所
7.王旭波,國家開發銀行
8.李曉偉,中國人民銀行造币總公司
9.宋成,清華大學
10.文勝平,北京工業大學
11.劉雪敬,中國人民銀行造币總公司
12.宗瑞磊,中國石油化工集團公司
13.楊培勇,國家核電技術公司
14.楊玉超,北京大學
15.朱曉瑩,裝甲兵工程學院
16.羅景庭,深圳大學
17.陳光,北京神農投資管理股份有限公司
18.唐光盛,中國東方電氣集團有限公司
19.陳超,中南大學
20.劉宏燕,中國航空工業集團公司
21.王钰言,清華大學
22.崔彬,山東大學
23.高雙,甯波市創新創業管理服務中心
24.彭晶晶,啟元實驗室
25.李凡,重慶大學
26.李起,深圳市海思半導體有限公司
27.傅肅磊,無錫市好達電子股份有限公司
28.王敏涓,北京航空材料研究院
29.王小江,招商局集團有限公司
30.Muhammad Shahrukh Saleem,南方科技大學
31.陳賢哲,複旦大學
32.孫一鳴,華為技術有限公司
33.沈君堯,天通瑞宏科技有限公司
34.蘇榮宣,小米通訊技術有限公司
35.喬磊磊,華為技術有限公司
36.朱文軒,
37.徐惠平,北京經緯恒潤科技股份公司
碩士生:張明、張自淑、丁珉、李天舒、楊帆、李晖、賀汀、顧臨、陳菁菁、馮愛玲、徐迪、丁宇清、魏曉雪、連江濱